Transducing device



Sept 29, 1 64 H. c. LALESSE Re. 25,649

TRAYNSDUCING DEVICE Original Filed March 9, 1959 INVENTOR HERMAN COR NELIS LALESSE United States Patent Office Re. 25,649 Reissued Sept. 29, 1964 5 Claims. of. ire-100.41

Matter enclosed in heavy brackets appears in the original patent but forms no part of this reissue specification; matter printed in italics indicates the additions made by reissue.

The invention relates to a transducing device for re-.

cording or scanning of a groove-shaped recording track, in which two signals of dilferent directions of oscillation are recorded simultaneously, with the aid of a common recordingor scanning-member respectively. The recordingor scanning-member is connected with two independently deformable transducing elements through a coupling member which comprises two parts, each of which is at least substantially sensitive to only one of the two directions of oscillation. The term coupling member is herein defined as a connecting body between two transducing elements, this body having the property of being rigid for one direction of oscillation and resilient for the other direction and conversely. Thus, the coupling member, in one case, combines and the other case splits up two kinds of information.

According to the invention the driving force for the recording or scanning device loads the parts of the coupling member only by tensile stress. This has the advantage that no stress due to axial compression occurs in the said parts.

The two signals referred to above may consist of a conventional, acoustical signal and a reverberation signal or instead of a reverberation signal, a signal in which various acoustical effects are provided, for example, echo effects, or else, the two signals may consist of stereophonically associated acoustical signals. One signal may furthermore, contain high tones and the other signal low tones of an acoustical signal sequence, so that in this manner stereophonic reproduction of the original sound image may be obtained. The two signals may, moreover, consist of stereoscopically associated television signals.

Owing to the fact mentioned above, that the parts of the coupling member are not subjected to stress due to axial compression, it is possible to manufacture at least the parts of the coupling member to be subjected to tensile stress from a material having little rigidity, for example, polyvinylchloride, butylrubber, neoprene, rubber, nylon, polystyrene, and the like materials having plastic-elastic properties. This means that, in general, materials may be used, which are more resilient than the materials employed in the known devices. This brings about a sim-' The invention will be described more fully with reference to the accompanying drawing in which:

FIG. 1 is a front elevation of the transducing device according to the invention;

FIG. 2 is a side view thereof; and

FIG. 3 shows a modification of the device shown in FIGS. 1 and 2 in a more compact construction.

Referring to FIG. 1,,reference numeral 1 designates I the elastic coupling member which establishes a mechanical connection between a recording or a scanning member 2 and the two transducing elements 3. The needle 2, as a scanning member, is subjected to the modulations recorded in the groove of a record disc. If this groove has a composite record, the coupling member will split up the double information, in a manner such that one signal is converted by one transducing element into an electrical voltage and the other signal by the second transducing element. Conversely, when recording two signals of different directions of oscillation, the coupling piece will operate as a composer of the two signals. The parts 4 of the coupling piece, in which the splitting-up or the combination of the information takes place, are subjected, in the device according to the invention, only to tensile stress by the force driving the needle 2. This is due to the fact that the longitudinal axes of the part 4 intersect one another so that an acute angle is formed on the side where the needle is fastened; i.e. between needle-holder 7 and adjacent portions 4 of the coupling pzece.

FIG. 2 is a side view of the transducing device shown in FIG. 1. The transducing element 3 subjected to torsional stress is clamped tight at 5 and is torsioned about the axis 6. The mechanical torque is obtained from the needle holder 7, during the scanning of the groove-shaped recording track, through the coupling member 1, of which the part 4 provided the splitting-up of the information. The needle-holder 7 is suspended at 8 and provided with a needle 2, which can be positioned on the record.

Since the parts 4 are not subjected to stress due to axial compression, they may be manufactured from a material having little rigidity, while a simple construction of the device may be obtained, in which, on the one hand, the coupling piece forms an integral part and, on the other hand, the tranmucing elements are arranged parallel or substantially parallel to each other, as is shown in FIG. 3.

Apart from the elements that may be subjected to torsional stress, the device may comprise transducing elements that may be subjected to bending stress, though the invention is not confined to the use of piezo-electric transducing elements.

While the invention has been described in connection with specific embodiments, other modifications thereof will be readily apparent to those skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

What is claimed is:

[1. A transducing device for converting information recorded in a groove in at least two different directions into a composite signal and for converting a composite signal into two portions recorded in two different directions in a groove comprising a member adapted to follow said groove and selectively record and scan variations therein in both of said directions, a pair of transducing elements each responsive to oscillations corresponding to cacao one of said directions, and a coupling member constituted of a relatively non-rigid material connecting said transducing elements, said coupling member having two portions forming an angle therebetween of less than 90 in which said groove-following member is positioned and connected to said coupling member whereby said coupling member is only under tensile stress and selectively transmits movements of said groove-following member to each of said transducing elements] [2. A transducing device for converting information recorded in a groove in at least two different directions into a composite signal and for converting a composite signal into two portions recorded in two different directions in a groove comprising a member adapted to follow said groove and selectively record and scan variations therein in both of said directions, a pair of transducing elements each responsive to oscillations corresponding to one of said directions, and an elastic coupling member constituted of a relatively non-rigid material connecting said transducing elements, said coupling member having two portions forming an angle therebetween of less than 90 in which said groove-following member is positioned and connected to said coupling member whereby said coupling member is only under tensile stress and selectively transmits movements of said groove-following member to each of said transducing elements] [3. A transducing device for converting information recorded in a groove in at least two different directions into a composite signal and for converting a composite signal into two portions recorded in two different directions in a groove comprising a member adapted to follow said groove and record and scan variations therein in both of said directions, a pair of transducing elements positioned substantially parallel to one another, each of said transducing elements being responsive to oscillations corresponding to one of said directions, and an elastic coupling member constituted of a relatively non-rigid material connecting said transducing elements, said coupling member having two portions forming an angle therebetween of less than 90 in which said groovefollowing member is positioned and connected to said coupling member whereby said coupling member is only under tensile stress and selectively transmits movements of said groove-following member to each of said transducing elements] [4. A transducing device for converting information recorded in a groove in at least two diiferent directions into a composite signal and for converting a composite signal into two portions recorded in two different directions in a groove comprising a member adapted to follow said groove and selectively record and scan variations therein in both of said directions, a pair of transducing elements each responsive to oscillations corresponding to one of said directions, and an elastic coupling member consisting essentially of polyvinylchloride connecting said transducing elements, said coupling member having two portions forming an angle therebetween of less than 90 in which said groove-following member is positioned and connected to said coupling member whereby said coupling member is only under tensile stress and selectively transmits movements of said groove-following member to each of said transducing elements] [5. A transducing device for converting information recorded in a groove in at least two difierent directions into a composite signal and for converting a composite signal into two portions recorded in two difierent directions in a groove comprising a member adapted to follow said groove and selectively record and scan variations therein in both of said directions, a pair of transducing elements positioned substantially parallel to one another, each of said transducing elementsbeing responsive to oscillations corresponding to one of said directions, and an elastic coupling member consisting essentially of polyvinylchloride connecting said transducing elements, said coupling member having two portions forming an angle (.4, tberebetween of less than 90 in which said groovefollowing member is positioned and connected to said coupling member whereby said coupling member is only under tensile stress and selectively transmits movements of said groove-following member to each of said transducing elements] 6. A transducing device for converting information recorded in a groove in at least two difierent directions into a composite signal and for converting a composite signal into two portions recorded in two different directions in a groove comprising a member adapted to follow said groove and selectively record and scan variations therein in both of said directions, a pair of transducing elements each responsive to oscillations corresponding to one'of said directions, and an inverted V-shaped member constituted of a'relativcly non-rigid material connecting said transducing elements, said groove-following member being positioned between the branches of said V-shaped member and being connected to the apex thereof whereby the branches of the V-shuped member are subjected only to tensile stress by a force on the groove-following membar.

7. A transducing device for converting information recorded in a groove in at least two different directions into a composite signal and for converting a composite signal into two portions recorded in two different directions in a groove comprising a member adapted to follow said groove and selectively record and scan variations therein in both of said directions, a pair of transducing elements each responsive to oscillations corresponding to'one of said directions, and an inverted V-shapcd elastic member constituted of a relatively non-rigid material connecting said transducing elements, said groove-following member being positioned between the branches of said V-shaped member and being connected to the apex thereof whereby the branches of the V-shaped member are subjected only to tensile stress by a force on the groove-following member.

8. A transducing device for converting information rccordcd in a groove in at least two difiercnt directions into a composite signal and for converting a composite signal into two portions recorded in two different directions in a groove comprising a member adapted to follow said groove and selectively record and scan variations therein in both of said directions, a pair of transducing elements positioned substantially parallel to one another, each of said transducing elements being responsive to oscillations corresponding to one of said directions, bnd an inverted V-shaped elastic member constituted of a relatively nonrigid material connecting said transducing elements, said groove-following member being positioned between the branches of said V-shaped member and being connected to the apex thereof whereby the branches of the V-shaped member are subjected only to tensile stress by a force on the groove-following member.

9. A transducing device for converting information rcdorded in a groove in at least two diflerent directions into a composite signal and for converting a composite signal into two portions recorded in two difierent directions in a groove comprising a member adapted to follow said groove and selectively record and scan variations therein in both of said directions, a pair of transducing elements each responsive to oscillations corresponding to one of said directions, and an inverted V-shaped elastic member consisting essentially of polyvinylchloride connecting said transducing elements, said groove-following member being positioned between the branches of said V-shaped member and being connected to the apex thereof whereby I the branches of the V-shaped member are subjected only to tensile stress by a force on the groove-following member.

10. A transducing device for converting information recorded in a groove in at least two different directions into a composite signal and for converting a composite signal into two portions recorded in two different directions in a groove comprising a member adapted to follow said groove and selectively record and scan variations therein in both of said directions, a pair of transducing elements positioned substantially parallel to one another, each of said transducing elements being responsive to oscillations corresponding to one of said directions, and an inverted V-shaped elastic member consisting essen tially of polyvinylchloride connecting said transducing elements, said groove-following member being positioned between the branches of said V-shaped member and being connected to the apex thereof whereby the branches of the V-shaped member are subjected only to tensile stress by a force on the groove-following member.

References Cited in the file of this patent or the original patent UNITED STATES PATENTS Keller et a1. Apr. 19, 1938 De Vries Mar. 4, 1958 FOREIGN PATENTS Great Britain Jan. 28, 1953 Great Britain May 11, 1960 Germany Dec. 13, 1956 

